CN209984813U - Light guide device, laser clothing material and treatment clothing - Google Patents

Abstract

The utility model belongs to the field of laser treatment, and particularly discloses a light guide device, a laser dress material and a treatment dress, wherein the light guide device comprises a light guide structure and a laser light source; at least two laser light sources are arranged, and the laser light sources comprise a first laser light source and a second laser light source; the light guide structure comprises at least one first light guide part, one end of the first light guide part is connected with the first laser light source, and the other end of the first light guide part is connected with the second laser light source; the light guide structure is made of light guide materials. The utility model discloses a treatment dress utilizes the laser therapy structure that light guide device is leading, can all have fine treatment to multiple disease, contains diseases such as diabetes, senile dementia.

Description

Light guide device, laser clothing material and treatment clothing

Technical Field

The utility model belongs to the technical field of laser treatment, concretely relates to leaded light device, laser dress material and treatment dress.

Background

Senile dementia, diabetes and the like are one of a plurality of common diseases which are not overcome in the global scope, no effective treatment medicine exists in the senile dementia, the diabetes and the like at present, and the global overcoming and treatment scheme is mainly early diagnosis and disease condition control in the prior art.

Many treatment devices such as diabetes treatment devices and the like appear in the market, auxiliary treatment on diabetes can be realized, and the main realization principle is that the modes such as magnetic therapy, music, laser or medium-low frequency pulse and the like are utilized. However, the realization principle of these devices is that the devices conduct directly to the human body, and the therapeutic signals received by the human body are limited, resulting in poor therapeutic effect.

And the utility model discloses a portable weak laser physiotherapy clothes is disclosed in chinese utility model patent CN201510750376.9, the light inlet port through conduction optic fibre connects the clothing, goes out the light port and connects the laser instrument, with the leading-in clothing of laser after, through clothing astigmatism, conduct to the human body, realize the laser treatment to the human body. However, in the patent, the light guide structure formed by the conducting optical fibers and the optical fiber fabric is used for conducting light, the optical fiber fabric is used for diffusing light, the optical fiber fabric only depends on the conducting optical fibers to enter light, the light at the position of the incident end connected with the conducting optical fibers is strong, and the light at the other end is very weak or even none, so that the problem of serious uneven diffusion of light exists, and finally the treatment effect is very poor.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a first aim at: aiming at the problems in the prior art, the light guide device is provided, different laser light sources are utilized to guide light to the same light guide piece, the light is directionally conducted, the light is dispersed more uniformly, the light guide effect is better, and the problem that the light is not conducted in place due to large turning of the light guide piece is solved;

the utility model discloses a second aim at: to the problem that exists among the prior art, provide a laser dress material, dispose the light guide device in dress material, the leaded light is effectual, and is bigger with the area of contact of human body simultaneously, and light dispersion is even, and treatment is better, has avoided prior art light too to concentrate and lead to: the light concentrated position is difficult to bear by the human body, and the light conduction is not in place, so that the treatment effect cannot be achieved;

the third purpose of the utility model is that: aiming at the problems in the prior art, the treatment clothing made of the laser clothing material is provided, the light guide effect is good, the omnibearing laser treatment can be realized on the whole body of the human body, the contact area with the human body is larger, and the treatment effect is effectively improved.

In order to realize the first purpose, the utility model discloses a technical scheme be:

a light guide device comprises a light guide structure and a laser light source;

at least two laser light sources are arranged, and the laser light sources comprise a first laser light source and a second laser light source;

the light guide structure comprises at least one first light guide part, one end of the first light guide part is connected with the first laser light source, and the other end of the first light guide part is connected with the second laser light source;

the light guide structure is made of light guide materials.

Further, light guide structure still include at least one second leaded light spare, wherein one end of second leaded light spare connect in first leaded light spare, the tangential direction of the light direction of conduction of first leaded light spare be first preset direction, the tangential direction of the incident end light direction of second leaded light spare predetermine the direction for the second, first preset direction with the second predetermine the contained angle of direction and be less than 90.

Furthermore, two ends of the second light guide part are connected with different first light guide parts.

Furthermore, the distance between the connection points of two adjacent second light guide members on the first light guide members is 0.1-20 cm.

Furthermore, the second light guide member has a linear structure or an arc structure.

Furthermore, the light guide structure further comprises a third light guide part, two ends of the third light guide part are connected to the same first light guide part, and the middle part of the third light guide part is connected with other first light guide parts in a surrounding mode to form a closed-loop connection structure.

Furthermore, in the light guide structure, the corner of each connecting point is processed by a fillet.

Furthermore, one side of the light guide structure is provided with a first light blocking layer for blocking light rays from emitting, so that the light rays can be emitted from the other side in a more concentrated manner.

Furthermore, the first light blocking layer is at least one of a reflective coating, a total reflection sparse layer or a light-isolating baffle.

Furthermore, one side of the light guide structure, from which the light rays are emitted, is of a convex curved surface structure.

Furthermore, the thickness of the middle part of the light guide structure is gradually reduced to the thickness of the two side ends along the thickness direction.

Furthermore, one side of the light guide structure where the first light blocking layer and the first light blocking layer are located is at least one of a linear type, a V-shaped type, a trapezoidal type, a curved surface type or a U-shaped type.

Further, the material of the light guide structure is at least one of silica gel, silicone resin, polystyrene, PMP, polyurethane, polycarbonate or polymethyl methacrylate.

Further, the shore a hardness of the material of the light guide structure is between 0 and 60.

Furthermore, the width of the light guide structure is 0.3-5cm, and the thickness of the light guide structure is 0.1-1 cm.

Furthermore, the width-thickness ratio of the light guide structure is 2:1 to 6: 1.

Furthermore, each laser light source is provided with a plurality of lasers, each laser is connected with one first light guide piece, and a plurality of second light guide pieces are connected between every two adjacent first light guide pieces to form a net structure.

Furthermore, each laser light source is provided with at least one laser, each laser is provided with one laser output end or two laser output ends in opposite directions, and each laser output end is connected with one first light guide piece.

Further, the laser light source comprises at least one laser, the first light guide member is connected with the laser, and a second light blocking layer is arranged at the connecting end.

Furthermore, the end part of the first light guide part connected with the laser is of a plane structure perpendicular to the axis of the first light guide part.

Furthermore, the laser light source can emit red light and near infrared light and can be switched with each other within a set time interval.

Further, the laser light source can be switched between an operating state and an off state in a circulating manner, and the duration of the operating state and the duration of the off state are set independently.

Further, the power density of the laser light source released in each working process is 1mW/cm 2-200 mW/cm 2.

In order to realize the second purpose, the utility model discloses a technical scheme be:

a laser dress material comprises a dress material and a light guide device, wherein the light guide device is fixed on one side of the dress material;

the dress material is made of a material capable of blocking the light emitted by the light guide structure.

In order to realize the second purpose, the utility model discloses still provide another technical scheme and be:

a laser dress material comprises a dress lining material, a dress surface layer material and a light guide device, wherein the light guide device is fixed between the dress lining material and the dress surface layer material;

the clothing surface layer material is made of a material capable of blocking light rays emitted by the light guide structure;

the inner material of the clothes is made of a material which can penetrate through the light guide structure to emit light.

Furthermore, the clothing surface layer material is made of a material with light transmittance lower than 20%.

Furthermore, the inner layer material of the clothes is made of transparent or semitransparent material with the light transmittance of more than 50 percent.

Further, the laser light source is arranged between the dress lining material and the dress surface layer material.

Further, laser light source's light source control system be connected with remote controller or cell-phone APP to connect through wireless communication module, the remote controller with cell-phone APP all store multiple disease treatment scheme, and can remind patient to use on time.

In order to realize the third purpose, the utility model discloses a technical scheme be:

the utility model provides an utilize treatment dress that laser dress material made, treatment dress be clothes or trousers, laser light source arrange in the position of sewing up of treatment dress, laser light source in be provided with the laser instrument that can jet out laser to two opposite directions, a plurality of first leaded light spare connect in laser light source's both sides, and single first leaded light spare arrange in same laser dress material.

Furthermore, in the same laser clothing material, two adjacent first light guide pieces are connected through a plurality of second light guide pieces.

In order to realize the third objective, the utility model discloses still provide another technical scheme and be:

the treatment clothes made of the laser clothes material are knee pads, neck pads, shoulder pads or waist pads.

Since the technical scheme is used, the beneficial effects of the utility model are that:

compared with the condition that one end of a light guide part is connected with a laser light source, the light guide device provided by the utility model has the advantages that light is conducted from one end to enter, when the light reaches the end, the light is weaker when the light is finally conducted to the end due to reasons such as middle turning, and the treatment effect is seriously weakened; compare the condition in a laser light source is connected simultaneously at the both ends of a leaded light spare, light follows same laser light source from both ends, because the both ends of leaded light spare are in same starting point, the centre can exist a turn structure certainly (when the turn angle degree is great, still can have 360 big turns, the great loss of turn light, the light that two laser light sources go out hardly has the effect that superposes the reinforcing each other), consequently also can weaken the conduction of light source at the turn, great weakening treatment. And the utility model discloses a light guide device, the conduction light path that constitutes by first leaded light spare to laser light source's mode is connected respectively at both ends, and light is advanced simultaneously at both ends, has fine stack reinforcing effect, makes during light evenly fills whole leaded light spare more, effectively improves the treatment effect of light guide device in the aspect of laser treatment.

The utility model provides a laser clothing material, regard clothing material as the carrier, the configuration leaded light device can utilize the light blocking effect of clothing material itself, on one hand blocks the light of light-directing structure, on the other hand can cover laser light source, prevents that laser light source's ejection end from realizing the light leak, forms the injury to the human body; furthermore, double-layer clothing materials of the inner layer and the outer layer are reused, the clothing inner layer material can transmit light rays of the light guide device to refrigerate the human body, and can block a part of light rays at the same time, so that the loss of the human body caused by too strong light energy is avoided;

the utility model provides a treatment clothes utilizes the laser therapy structure of leaded light device for the main part, can all have fine treatment to multiple disease, contains diseases such as diabetes, senile dementia.

Drawings

Fig. 1 is a front view of a first embodiment of a light guide device of the present invention;

fig. 2 is a front view of a second embodiment of the light guide device of the present invention;

fig. 3 is a front view of a third embodiment of the light guide device of the present invention;

fig. 4 is a front view of a fourth embodiment of the light guide device of the present invention;

fig. 5 is a front view of a fifth embodiment of the light guide device of the present invention;

fig. 6 is a cross-sectional view of the first light guide of the present invention, wherein (a), (b), (c), (d), and (f) are cross-sections of the first light guide in five different states;

fig. 7 is a cross-sectional view of a first embodiment of a laser apparel material of the present invention;

fig. 8 is a cross-sectional view of a second embodiment of the laser apparel material of the present invention;

FIG. 9 is a front view of a first embodiment of the therapeutic garment of the present invention;

FIG. 10 is a rear view of a first embodiment of the therapeutic garment of the present invention;

FIG. 11 is a front view of a second embodiment of the therapeutic garment of the present invention;

FIG. 12 is a rear view of a second embodiment of the therapeutic garment of the present invention;

FIG. 13 is a front view of a first embodiment of a pair of pants, in accordance with the present invention;

FIG. 14 is a rear view of the therapeutic garment of the present invention in the form of pants;

FIG. 15 is a front view of a second embodiment of the therapeutic garment of the present invention in the form of pants;

figure 16 is a rear view of the therapeutic garment of the present invention in the form of pants;

FIG. 17 is a schematic view of the distribution of light guides in the therapeutic garment of the present invention;

fig. 18 is a front view of a sixth embodiment of the light guide device of the present invention.

Reference numerals: 10-laser, 11-first laser light source, 12-second laser light source, 20-first light blocking layer, 21-first light guide, 22-second light guide, 23-third light guide, 301-clothing material, 311-clothing lining material, and 312-clothing surface layer material.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

The terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

Furthermore, the terms "parallel," "perpendicular," and the like do not require that the components be absolutely parallel or perpendicular, but may be slightly inclined. For example, "parallel" merely means that the directions are more parallel relative to "perpendicular," and does not mean that the structures are necessarily perfectly parallel, but may be slightly tilted.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 6, the light guide device of the present invention is disposed in clothes, trousers, a hat, a knee pad, a neck pad, a shoulder pad or a waist pad, and can perform laser treatment on diabetes, senile dementia and other diseases of a human body by means of laser irradiation.

Specifically, the light guide device includes a light guide structure and a laser light source, and the light guide structure is made of a light guide material, such as silica gel, silicone resin, polystyrene, PMP, polyurethane, polycarbonate, or polymethyl methacrylate, but is not limited thereto, and other light guide materials capable of realizing laser light transmission may also be used.

Referring to fig. 1, the laser light sources are provided with at least two, including a first laser light source 11 and a second laser light source 12. The light guide structure comprises at least one first light guide part 21, one end of the first light guide part 21 is connected with the first laser light source 11, the other end of the first light guide part 21 is connected with the second laser light source 12, different laser light sources are connected at two ends of the first light guide part 21, the first light guide part 21 can be arranged along a straight track and can also be arranged along a curved track, a large-turning track arrangement mode is not needed, for example, 360-degree large turning is adopted, light loss in the transmission process is reduced as much as possible, and meanwhile, the light turning is not needed to be realized by setting an excessively complex light reflection structure. Adopt this kind of mode of connecting first laser light source 11 and second laser light source 12 respectively at the both ends of first leaded light 21 of this application, during the light source at both ends jets into first leaded light 21 simultaneously, light superposes each other, strengthens for during light more evenly fills whole leaded light, finally disperses out, forms effective treatment to the human body.

Referring to fig. 2-4, further improvement, the light guide structure further includes at least one second light guide 22, one end of the second light guide 22 is connected to the first light guide 21, the main light path formed by the first light guide 21, and the second light guide 22 connected to the first light guide 21 is used as a light splitting path, so that the area range where light can reach is effectively expanded, the effective acting range of light is greatly improved, the uniformity of light energy is improved, and the situation that light is too concentrated to cause human body to be unacceptable is avoided. The second light guide 22 may have one end connected to the first light guide 21, or have two ends connected to the first light guide 21 at different positions, and may be arranged and connected according to the position requirement, and of course, the second light guide 22 and the second light guide 22 may also be cross-connected to be dispersed uniformly as much as possible.

The second light guide 22 may be arranged along a straight line, a curved line (or an arc line), or other tracks. And the tangential direction of the light conduction direction of the first light guide member 21 is a first preset direction, the tangential direction of the light conduction direction of the incident end of the second light guide member 22 is a second preset direction, the included angle alpha between the first preset direction and the second preset direction is smaller than 90 degrees, alpha is as shown in the figure, and the connection of such angles can ensure that light enters the second light guide member 22 from the first light guide member 21 as far as possible, so that the dispersion is more uniform.

When setting up many first leaded light 21, because first leaded light 21 itself can't realize the circumstances such as sharp turn, leads to the uneven condition of light source difference, consequently, the place that first leaded light 21 can't radiate can come fine solution through second leaded light 22, has effectively expanded the regional scope that light can reach, has promoted the effective scope of action of light greatly.

Referring to fig. 5, in a further improvement, the light guide structure further includes a third light guide member 23, two ends of the third light guide member 23 are connected to the same first light guide member 21, and a middle portion of the third light guide member 23 is connected to other first light guide members 21 in a surrounding manner to form a closed-loop connection structure. To the condition of connecting the first leaded light 21 of a plurality of scattered form distributions with a certain laser light source, can form closed loop connection through connecting third leaded light 23, effectively expanded the regional scope that light can reach, promoted the effective scope of action of light greatly.

The utility model discloses in, to the light guide structure by first leaded light 21 and second leaded light 22 intercombination, first leaded light 21 and the mutual combination of third leaded light 23 or first leaded light 21, second leaded light 22 and the mutual combination of third leaded light 23, add the back through second leaded light 22 or third leaded light 23 for whole light guide structure has formed a network structure, has improved light guide structure's light greatly and has shone the degree of consistency.

No matter the first light guide part 21 is connected with the second light guide part 22 or the third light guide part 23, the corner of each connecting point is processed by a fillet, so that on one hand, the loss of light rays at the corner position is reduced as much as possible, and the turning and transmission permeability of a light source is ensured; on the other hand, the light reflecting structure at the corner position is simplified as much as possible, so that the production cost of the whole light guide device is reduced.

The distance between the first light guide part 21 and the first light guide part 21 is set to be 0.1-20 cm; the distance between the connection points of two adjacent light guide members on the first light guide member 21 is 0.1-20cm in the second light guide member 22 or the third light guide member 23 connected on the first light guide member 21. After a certain distance is set, the light guide pieces of different types or the same type are ensured to be distributed more uniformly, and light distribution is prevented from being concentrated.

In this embodiment, no matter the light guide structure is the first light guide 21, the second light guide 22 or the third light guide 23, the outer side of the light guide structure is further provided with the first light blocking layer 20 for blocking the light rays from being emitted, so that the light rays can be emitted from the other side of the light guide structure more intensively. Through this design, can make the illuminator realize directional luminescence, avoid the light to emit the loss from the opposite side simultaneously.

The first light blocking layer 20 may be at least one of a light reflecting coating, a total reflection light sparse layer, or a light blocking plate. Specifically, in this embodiment, the light blocking layer is a reflective coating.

Referring to fig. 6, it should be noted that the outer wall surface (i.e., the side surface on which the light reflecting coating is disposed) of each light guide member of the light guide structure is at least one of linear, V-shaped, trapezoidal, curved, or U-shaped. The structures listed all have a common characteristic that the thickness of the middle part of the light guide structure is gradually reduced to the thickness of the two side ends along the thickness direction, and by means of the design, the effect of emitting light from the inner side can be obviously improved, and the light can be effectively prevented from leaking from the edge of the light guide structure.

Simultaneously, the medial surface (that is to say one side that light distributes) of each leaded light spare adopts cambered surface type structure among the light guide structure, can make the region that light distributes on the width direction of leaded light spare wider like this, finally makes light distribution more even.

The laser light source in this embodiment is composed of a first laser light source 11 and a second laser light source 12, and certainly, three laser light sources or more laser light sources may be configured according to actual needs, as long as it is ensured that different laser light sources are connected to both ends of the first light guide member 21. Each laser source may be provided with one laser 10 or a plurality of lasers 10, and each laser 10 may be directly connected to the first light guide 21 or may be connected to the first light guide through another light guide material.

Preferably, each laser 10 may be connected to a first light guide 21 along one direction, that is, emitting in a single direction; or each laser 10 may be connected with a first light guide 21 in two opposite directions, i.e. emitting in two directions. A single emitting end is connected with a first light guide part, so that the light source can emit light along a straight line direction, the light energy loss is minimized, and the energy distribution is more uniform. As shown in fig. 3, the first laser light source 11 and the second laser light source 12 are each provided with two lasers 10, and the two lasers 10 are respectively arranged side by side so as to distributively connect two first light guides 21.

In this embodiment, the laser 10 and the first light guide 21 are directly connected. Further improve, be equipped with the second light blocking layer at the link of laser instrument 10 with first leaded light 21, the second light blocking layer adopts shading material to make, can form the link of laser instrument 10 with first leaded light 21 and shelter from, can effectually solve because the condition of light leak appears in laser instrument 10 and the unstable condition of connecting of first leaded light 21, guarantees that light energy can not appear giving off and ability loss in the initial section. Meanwhile, the embodiment also performs a certain treatment on the end of the first light guide member 21 connected to the laser 10, and the end of the first light guide member 21 connected to the laser 10 is a planar structure perpendicular to the axial lead of the first light guide member 21, so as to ensure that the end of the first light guide member 21 is flat and smooth, and realize seamless connection with the laser 10, and because the end surface has a certain inclination, a gap is easy to occur during connection, thereby leaking light; meanwhile, since the angle of incidence of the end of the first light guide 21 is changed after the inclination, the light energy loss due to scattering and reflection caused by the non-perpendicular angle of incidence of the light energy can be reduced by using this design.

The utility model discloses a laser source embeds between surface course material and nexine material to fixed inside the top layer, can realize through modes such as sewing up or pasting.

The laser light source can emit red light and near infrared light and can be switched with each other within a set time interval.

Under photochemical reaction, with red light, low-energy laser therapy (principle of LLLT); near infrared light is invisible to the human eye, and is an electromagnetic wave in electromagnetism, and due to good penetrability of the near infrared light, the near infrared light can break through hair and skull, reach cerebral cortex cell tissues and perform deep LLLT treatment and frequency treatment. Therefore, laser treatment of the human body can be achieved by using red light and infrared light.

Because the penetrability of red light and near-infrared light is different, consequently, through the mode of switching over in turn, can realize the irradiation treatment to the different cortex of human body, the treatment effect is better than the effect of single light source irradiation treatment.

In a further improvement, the laser light source can be switched between an operating state and an off state in a circulating manner, and the duration of the operating state and the duration of the off state are set independently. The device can be automatically closed for a period of time for rest in the treatment process so as to prevent the body from being injured due to short-time over-irradiation. The laser light source emits power with density of 1mW/cm 2-100 mW/cm2 in each operation.

The Shore A hardness of the material of the light guide structure is between 0 and 60; the light guide structure has a width of 0.3-5cm and a thickness of 0.1-1 cm. The light guide structure in this embodiment has lower material hardness, and can be arranged more easily in the clothing material 301.

The width-thickness ratio of the light guide structure is 2:1 to 6:1, the light guide structure is designed to be a flat structure, on one hand, light can be prevented from leaking out from two sides, on the other hand, when the light guide structure is used in treatment clothes such as clothes, the flat structure cannot be in contact with the body during sleep, and the comfort degree is higher.

Referring to fig. 7, the utility model discloses a laser dress material contains dress material 301 and preceding the leaded light device, utilize this dress material 301 can make wearing formula dresses such as clothes, trousers, cap, knee-pad, neck guard, shoulder pad, waist support, form the treatment dress that can carry out laser treatment to each position of human body. The light guide device is arranged on one side of the clothing material 301, namely on one side close to a human body, and the clothing material 301 is made of a material capable of blocking light emitted by the light guide structure, namely, a light-proof material or a material with poor light transmission. Can treat diseases such as human diabetes, senile dementia laser light energy through leaded light device gived off, treat the human body, simultaneously through dress material 301's the effect of hindering light, form to block the light, avoid light from reversely giving out the back, cause the damage to organs such as human eyes.

In this embodiment, in the light guide device, each light guide structure has a first light-blocking line formed by the first light-blocking layer 20 and the second light-blocking layer, which can effectively prevent light from being scattered from the other side, and then is combined with a second light-blocking line formed by the clothing material 301, so as to form a double-layer light-blocking effect; besides blocking the light of the light guide, the light emitted from the laser 10 can be blocked, and the light blocking effect is comprehensive.

Apparel material 301 may be a material with a higher density, or a thicker thickness, or a darker color, with a light transmittance of less than 20% (light may be absorbed by the material, or may be reflected back).

Referring to fig. 8, the present invention provides another embodiment, which includes a clothing lining material 311 and a surface decoration layer material 312, besides the light guide device, the light guide device is disposed in the interlayer between the clothing lining material 311 and the surface decoration layer material 312, and the clothing surface material 312 has the same function and effect as the clothing material 301 in the previous embodiment. The function of the clothing lining material 311 is to transmit the light emitted by the light guide device, scatter the light to the human body, and irradiate the human body to form treatment; on the other hand, the function that the lining material 311 of the clothes is not completely transparent is utilized, so that light energy is blocked and weakened to a certain extent, and the light is prevented from directly irradiating the human body and damaging the human body.

Apparel cover material 312 may be a material with a higher density, or a greater thickness, or a darker color, and a light transmittance of less than 20% (light may be absorbed by the material, or may be reflected back).

The clothing lining material 311 is made of a transparent or semitransparent material with light transmittance of more than 50%.

Referring to fig. 9-10, the present invention relates to a therapeutic garment, which is made of a laser garment material made of a light guide device, a garment lining material 311 and a decorative surface layer material 312.

The clothes include front portion and back portion, sew up the connection by two cloths respectively and form, in two faces of clothes also, every face utilizes preceding laser dress material that contains the light guide device makes, if so designed, every face all is solitary light guide structure, and is easier when sewing up. The first laser light source 11 is arranged at the position where the front part and the back part of the left shoulder are sewed together, and the second laser light source 12 is arranged at the position where the front part and the back part of the right shoulder are sewed together. One side of the front face part of the first laser light source 11 is connected with a first light guide part 21, one side of the back face part is connected with another first light guide part 21, the first light guide part 21 in the front face part is distributed along the front face part and then returns to the second laser light source 12 of the right shoulder, and meanwhile, the first light guide part 21 in the back face part is distributed along the back face part and then returns to the second laser light source 12 of the right shoulder. In this embodiment, the first light guide members 21 of the front and back portions are not crossed with each other, so that the clothes can be more conveniently sewn.

One or more first light guide members 21 can be arranged in the front portion or the back portion, and in the same piece of cloth, a mesh structure can be formed between the first light guide members 21 by arranging a plurality of second light guide members 22, so that light rays are more easily dispersed, and the uniformity after dispersion is higher.

The utility model discloses a treatment dress, laser light source's light source control system is connected with remote controller or cell-phone APP to connect through wireless communication module, the remote controller with cell-phone APP all the storage have multiple disease treatment scheme, and can remind patient to use on time. The switch can be periodically switched to transmit light energy and manage wavelength changes according to system settings. The remote controller is a screen with a display screen, and different light treatment schemes and treatment courses for different diseases and symptoms are built in the remote controller. In addition, the remote controller can also input and formulate data such as treatment course scheme, light dose, treatment duration of each time, interval time, work cycle and the like suitable for each patient in a personalized way under the guidance of a doctor.

The shell of the laser light source is a plastic or other container shell which is not easy to catch fire, and is heat-conducting and electric-conducting.

The utility model discloses a treatment dress adopts the laser dress material that light guide device, dress nexine material 311 and decorative cover layer material 312 were made to make the treatment dress, and this embodiment is directed at one of them specific treatment dress-trousers, elaborates on.

The trousers comprise a front part and a back part which are respectively formed by sewing and connecting two pieces of cloth. The first laser light source 11 is arranged at the position where the front part and the rear part of the left trouser leg are sewed, and the second laser light source 12 is arranged at the position where the front part and the rear part of the right trouser leg are sewed. One side of the front part of the first laser light source 11 is connected with a first light guide part 21, one side of the rear part is connected with another first light guide part 21, the first light guide part 21 in the front part is distributed in the front part and finally returns to the second laser light source 12 of the right trouser leg, and meanwhile, the first light guide part 21 in the rear part is distributed in the rear part and finally returns to the second laser light source 12 of the right trouser leg. In this embodiment, the first light guide members 21 of the front and rear portions are not crossed with each other, so that the trousers are more convenient to be sewn.

One or more first light guide members 21 can be arranged in the front portion or the rear portion, and in the same piece of cloth, a mesh structure can be formed between the first light guide members 21 by arranging a plurality of second light guide members 22, so that light rays are more easily dispersed, and the uniformity after dispersion is higher.

Referring to fig. 13-14, the present invention relates to a therapeutic garment, which is made of a laser garment material made of a light guide device, a garment lining material 311 and a decorative surface layer material 312.

The trousers comprise a front part and a back part which are respectively formed by sewing and connecting two pieces of cloth. The number of the first laser light sources 11 is two, each of the first laser light sources 11 is provided with 3 lasers 10, the number of the second laser light sources 12 is two, and each of the laser light sources is provided with 3 lasers 10. One of the first laser light sources 11 is arranged at the position where the front part and the rear part of the left trouser leg are sewed together, the other one of the first laser light sources 11 is arranged at the position where the front part and the rear part of the right trouser leg are sewed together, one of the second laser light sources 12 is arranged at the position where the front part and the rear part of the left trouser waist are sewed together, and the other one of the second laser light sources 12 is arranged at the position where the front part and the rear part of the right trouser waist are sewed together.

The front side of the first laser source 11 in the left trouser leg is connected with a first light guide 21, the back side is connected with another first light guide 21, the first light guide 21 in the front side is distributed along the front side and finally returns to the second laser source 12 of the left trouser leg (or the second laser source 12 of the right trouser leg), and the first light guide 21 in the back side is distributed along the back side and finally returns to the second laser source 12 of the left trouser leg (or the second laser source 12 of the right trouser leg). The light guide means located in the right leg of the trousers are arranged in the same way.

In this embodiment, the first light guide members 21 of the front and rear portions are not crossed with each other, so that the trousers are more convenient to be sewn.

One or more first light guide members 21 can be arranged in the front portion or the rear portion, and in the same piece of cloth, a mesh structure can be formed between the first light guide members 21 by arranging a plurality of second light guide members 22, so that light rays are more easily dispersed, and the uniformity after dispersion is higher.

Referring to fig. 15-16, the present invention relates to a therapeutic garment, which is made of a laser garment material made of a light guide device, a garment lining material 311 and a decorative surface layer material 312.

The trousers comprise a front part and a back part which are respectively formed by sewing and connecting two pieces of cloth. There are one first laser light source 11, 2 lasers 10 provided for the first laser light source 11, and one second laser light source 12, each laser light source being provided with 2 lasers 10. The first laser source 11 is arranged at the position where the front part and the rear part of the outer side of the left trouser leg are sewed together, and the second laser source 12 is arranged at the position where the front part and the rear part of the outer side of the right trouser leg are sewed together. Each laser 10 of the first laser light source 11 is connected with a first light guide member 21 at one side of the front part, and the first light guide member 21 is wound on the back of the front part of the trousers and is connected with a second laser light source 12; each laser 10 of the first laser source 11 is connected with a first light guide 21 at one side of the back part, and the first light guide 21 is wound on the back part of the trousers and connected with the second laser source 12.

As shown in fig. 17, the laser 10 of each of the first laser light source 11 and the second laser light source 12 can emit laser light in both the forward and backward directions.

In this embodiment, the first light guide members 21 of the front and rear portions are not crossed with each other, so that the trousers are more convenient to be sewn.

The second light guide members 22 are arranged between the two first light guide members 21 in the front portion or the rear portion to form a net structure, so that light can be dispersed more easily, and the uniformity after dispersion is higher.

Referring to fig. 11-12, the present invention relates to a therapeutic garment, which is made of a laser garment material made of a light guide device, a garment lining material 311 and a decorative surface layer material 312.

The clothes comprise a front part and a back part which are respectively formed by sewing and connecting two pieces of cloth. The first laser light source 11 is arranged at the position where the front and back of the left underarm are sutured, and the second laser light source 12 is arranged at the position where the front and back of the right underarm are sutured. The first laser light source 11 is provided with 4 lasers 10, the second laser light source 12 is also provided with 4 lasers 10, one side of the front surface of the first laser light source 11 is connected with 4 first light guide members 21, one side of the back surface is connected with another 4 first light guide members 21, the first light guide members 21 in the front surface are distributed along the front surface and finally return to the second laser light source 12 under the right armpit, and meanwhile, the first light guide members 21 in the back surface are distributed along the back surface and finally return to the second laser light source 12 under the right armpit. In this embodiment, the first light guide members 21 of the front and back portions are not crossed with each other, so that the clothes can be more conveniently sewn.

In the same cloth, a plurality of second light guide members 22 are arranged between the first light guide members 21 to form a net structure, so that light rays are more easily dispersed, and the uniformity after dispersion is higher.

In addition, in treatment dress, because clothes or trousers are spatial structure, and not planar structure, the one-way light source among patent CN201510750376A gets into from one side of clothes, and the light source is no matter inserts from back one side, still inserts from prothorax one side, all hardly covers whole piece clothes, and this makes this solution's practicality limited, the utility model discloses a treatment dress can this problem of effectual solution.

The following description is continued with reference to specific experiments;

experiment one (laser dress material sugar-reducing)

A friend parent, a garment using a laser source with a power of 200 mW. The laser light sources are arranged in two, are respectively positioned on the left shoulder and the right shoulder, and are provided with 4 lasers 10, and the light guide device is arranged in the manner described above. The laser wavelength is alternately changed between 630nm red light and 810nm near infrared light, and is used once a day, and each treatment course is about one hour. The light guide emitted by the light source covers all parts of the garment, in practice covering about 1 square meter.

The patient wears the laser clothes once a day (with white underwear), the treatment time is about 55 minutes, and the specific treatment process is as follows:

step 1: the laser light sources release 630nm red light in the first 10 minutes, the power of each laser 10 is 200mW, and the total power of 8 lasers 10 is 1.6W (0-10 minutes);

step 2: next, the laser is switched off and the rest is carried out for 5 minutes (11-15 minutes);

and step 3: the laser light source releases 810nm near infrared light in the next 10 minutes, and the power of each laser 10 is also 200mW (16-25 minutes);

and 4, step 4: next the laser was turned off for 5 minutes (26-30 minutes);

next return to 630nm red for 10 minutes, step 1(31-40 minutes);

turning off the laser and resting for 5 minutes, and synchronizing the step 2(41-45 minutes);

next, return to 10 minutes of 810nm near-infrared light, step 3, and then end the treatment (46-55 minutes)

The whole experiment lasted for 60 days, during which the fasting blood glucose of the patients gradually decreased, and the blood glucose of the patients decreased from 8.2 to 6.7 before the experiment and remained stable.

Experiment two (laser clothes and trousers lower blood pressure)

The clothes part is the same as the experiment I, the trousers part is composed of two laser light sources at the sole, one is at the left foot, the other is at the right foot, each light source box is provided with two lasers, the lasers respectively go up to the waist from different positions in front of and behind the trouser legs, and then the second light guide structures are combined to form a light guide layout covering the whole trousers.

The method and steps of using the trousers are the same as the clothes.

The patient wears clothes and trousers once a day for 55 minutes each time.

By the end of the sixth week, the patient's systolic blood pressure decreased from 128 to 111 and diastolic blood pressure decreased from 93 to 77.

The first experiment and the second experiment prove that the utility model has better curative effect for curing diseases such as senile dementia, diabetes and the like.

Claims (31)

1. The light guide device is characterized by comprising a light guide structure and a laser light source;

at least two laser light sources are arranged, and the laser light sources comprise a first laser light source and a second laser light source;

the light guide structure comprises at least one first light guide part, one end of the first light guide part is connected with the first laser light source, and the other end of the first light guide part is connected with the second laser light source;

the light guide structure is made of light guide materials.

2. The light guide device according to claim 1, wherein the light guide structure further comprises at least one second light guide member, one end of the second light guide member is connected to the first light guide member, a tangential direction of a light transmission direction of the first light guide member is a first predetermined direction, a tangential direction of a light transmission direction of an incident end of the second light guide member is a second predetermined direction, and an included angle between the first predetermined direction and the second predetermined direction is smaller than 90 °.

3. A light guide device according to claim 2, wherein two ends of the second light guide member are connected to different first light guide members.

4. A light guide device according to claim 2, wherein the distance between the connection points of two adjacent second light guide members on the first light guide member is 0.1-20 cm.

5. A light guide device according to claim 2, wherein the second light guide member has a linear structure or an arc structure.

6. A light guide device according to any one of claims 1 to 5, wherein the light guide structure further comprises a third light guide member, two ends of the third light guide member are connected to the same first light guide member, and a middle portion of the third light guide member is connected to other first light guide members in a surrounding manner to form a closed-loop connection structure.

7. A light guide device according to any one of claims 1-5, wherein the corners of each connection point are rounded.

8. A light guide device according to any one of claims 1-5, wherein one side of the light guide structure is provided with a first light blocking layer for blocking light from exiting, so that light can exit from the other side more intensively.

9. A light guide device according to claim 8, wherein the first light blocking layer is at least one of a light reflecting coating, a fully reflecting hydrophobic layer, or a light blocking barrier.

10. A light guide device according to claim 8, wherein the light emitting side of the light guide structure is a convex curved structure.

11. A light guide device according to claim 8, wherein the thickness of the light guide structure decreases from the middle portion to both side ends in the thickness direction.

12. A light guide device according to claim 11, wherein the first light blocking layer and the light guide structure on which the first light blocking layer is disposed have at least one of a linear shape, a V-shape, a trapezoidal shape, a curved shape, and a U-shape.

13. A light guide device according to any one of claims 1-5, wherein the light guide structure is made of silicone, polystyrene, PMP, polyurethane, polycarbonate or polymethyl methacrylate.

14. A light guide device according to any one of claims 1-5, wherein the light guide structure is made of a material having a Shore A hardness of between 0 and 60.

15. A light guide device according to any one of claims 1 to 5, wherein the light guide structure has a width of 0.3 to 5cm and a thickness of 0.1 to 1 cm.

16. A light guide device according to any one of claims 1-5, wherein the width-to-thickness ratio of the light guide structure is between 2:1 and 6: 1.

17. A light guide device according to any one of claims 2 to 5, wherein each of the laser light sources has a plurality of lasers, each of the lasers is connected with one of the first light guide members, and a plurality of the second light guide members are connected between two adjacent first light guide members to form a mesh structure.

18. A light guide device according to any one of claims 1-5, wherein each laser light source comprises at least one laser, each laser comprises a laser output end or two laser output ends in opposite directions, and each laser output end is connected with one first light guide member.

19. A light guide device according to claim 1, wherein the laser light source comprises at least one laser, the first light guide member is connected to the laser, and a second light blocking layer is provided at the connection end.

20. A light guide device according to claim 19, wherein the end of the first light guide member connected to the laser is a planar structure perpendicular to the axis of the first light guide member.

21. A light guide device according to claim 1, wherein the laser light source is capable of emitting red light and near-infrared light and switching between them at predetermined time intervals.

22. A light guide device according to claim 1, wherein the laser light source is capable of being cyclically switched between an on state and an off state, and the on state duration and the off state duration are set independently.

23. A light guide device according to claim 1, wherein the laser light source emits power at a density of 1mW/cm per operation²To 200mW/cm²In the meantime.

24. A laser apparel material comprising an apparel material and a light guide as claimed in any one of claims 1 to 5, 9 to 12, 19 to 22, said light guide being secured to one side of said apparel material;

the dress material is made of a material capable of blocking the light emitted by the light guide structure.

25. A laser apparel material comprising an apparel lining material, an apparel cover material and a light guide as claimed in any one of claims 1 to 5, 9 to 12, 19 to 22, the light guide being secured between the apparel lining material and the apparel cover material;

the clothing surface layer material is made of a material capable of blocking light rays emitted by the light guide structure;

the inner material of the clothes is made of a material which can penetrate through the light guide structure to emit light.

26. The laser garment material of claim 25, wherein the garment finish material is made of a material having a light transmittance of less than 20%.

27. The laser garment material of claim 25, wherein the garment lining material is made of a transparent or translucent material having a light transmittance of greater than 50%.

28. The laser apparel material of claim 25 wherein the laser light source is disposed between the apparel lining material and the apparel cover material.

29. The laser clothing material of claim 25, wherein a light source control system of the laser light source is connected with a remote controller or a mobile phone APP and is connected with the remote controller or the mobile phone APP through a wireless communication module, and the remote controller and the mobile phone APP both store a plurality of disease treatment schemes and can remind a patient to use the laser clothing material on time.

30. A therapeutic garment made of the laser garment material of claim 25, wherein the therapeutic garment is a garment or a pair of trousers, the laser light source is arranged at the sewing position of the therapeutic garment, a laser capable of emitting laser in two opposite directions is arranged in the laser light source, a plurality of first light guide members are connected to two sides of the laser light source, and a single first light guide member is arranged in the same laser garment material.

31. A therapeutic garment made from the laser garment material of claim 25, wherein the therapeutic garment is knee, neck, shoulder or waist pad.

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